Deferred-action dry battery



www

ilmmf AFERRE!) ACTIEON DRY BATTERY Filed April K. -UNTLEY DEFERRED ACTION 4DRY BTTERY Filed April 22 /L/:z/Q

Aug. 263, w24

ving is; a Specicalon.

fehl-@ugh a. four-Cel ieesco the bo mm member @QH 'farce Yeni.

able in th@ gener 'manne C'm'ods in Fig. 5, but in Wch no out of Contact Wh ik@ eA s En nhe form sf 'me i?? ,.1 ype, and is e j prow 'f v be @Die cuhmfenf'e i@ be Safely 1 LR LIL 3, Y i fing ik@ ir ze am Lin-Hiv r @mated or mm imm imm ffl@ zinc she 2 by h@ .insertion o? a pung f 1G. T wf" through perforation 1l'. The quantity et ktion. Any' suitable c osure which. may be operated as a plunger to torce the paste Ainto active position will serve. li have found'it convenient to mold the plunger seal 8.

fro'm sealing wax or other plastic material., but other materials may be used.

In Fig is illustrated a battery ot two' deferred action cells of the type described above. The closure plate "i2 has two plungers 13 and 14: which will be used tosimultaneously activate both cells ot the battery by forcing7 the excitant about the mix bobbins. A plate 15 of celluloid or other in sulating material is interposed. between the zinc shells 16 and 17. rl`he cells are connectedin series through wire 18, and wire terminals 19 and 20 are brought out through the scali. .Obviously, the cells may be connected in series or parallel, as desired, by Wires embedded in the seal. ln this constructiomthe seal engages the upper ends of the zinc shells and is sustained by them. The method to be followed in activating the battery will be clear "from the description given in connection with Figs. l and 2.

A modified forni or my invention is shown in Fig. Il, in which 22 denotes a paper carton encircling and extending above cylindrical zinc container electrodes 23. The

Zinc containers are preferably fastened in 'the carton with adhesive.

A seal 2ly carrying carbon rods 3 and mix bobbins 3", is provided with dependent cylindrical. projections 25 adapted to fit into the ends ot the zinc containers. .l'n the inactive condition of the battery, the seal 1s suspended above the containers by any suitable means, such.

as adhesive tape 26, bound about the seal and engaging the carton. Sealing' material to prevent drying out of the cells may be`.

provided in the form 'of a washerl 2'4" underlying the adhesive tape. The excitant 6, sutiicient in quantity to activate the cells, is contained in the bottom of the zine contain ers 23 and has an evaporation preventing A spacer 28 of relatively thin, ilexible insulating material is attached to the bottom of the mix bobbins 3', to prevent vibration of the bobbins when the battery is handled. I

The cells are activated by removing the tap 26 and thrustingthe seal .fl downward until it is flush with the upper edge of the carton -22. The descending mix bobbins breakthe waterproof seal and act as plun gers' to force the excitant lup past the spacn ers 28 and between the bobbins and zinc containers, the' air displaced by the rising excitant escaping betwcen seal 24 and carton 22. When'the seal is in lowered position?y a Q l incassa spring contact 3G on the cylindrical projection 25 makes Contact with the zinc container of one ot the cells'and forms a conductive path to the carbon pole of the-other. Tile cells are separated by an insulating spacer' 28. External connection may be nia/de through wires 30 and 30;

The torni ol' the invention illustrated in Fig. 5., like that oit' Fig. 4.-, has a seal 24 carryinp,F carbon rods with mix bobbins'and adapted to. be depressed into cont-act with pastein'ainc container electrodes. lnthe batterv shown in Fie". 5 however a two art tion are such as to permitvit to slide easily i Within the lower section 3l, and as shown, in the inactive positionof. the battery the upper section is partly telesceped into the lower. lt is held in elevated position by strips or tongues 32B, severed on three sides from the upper section and bent down over the edge of 'the lower section, as shown in detail in lligs. 6 and 7. These strips may be lightly soldered to the lower section to prevent them 'trom being dislodged by handling. .Il 'sealingl material may be applied about the junction of the sections.

.in the upper section isformed an an nnlar rimf), seinicircular in cross section, which: is adapted to be sprung into a groove i0 ci' 'corresponding contoun` on the lower section 31: When the sections are telescoped the resilient engagement of the rim and the I@groove provides a substantially air tight joint. Other means of forming an hermetical seal between the sections may be adopted alternatively oi' in addition to that described, as for example adjusting the depth -oi the pitch layer 34 so that the wall of the iippcr section may be embedded there in when the sections are telescoped. tt. is advisable to provide corrugations or projections to anchor the seal 24 in the upper section 32; in the construction shown the annular recess formed by rim 39 serves this purpose.

'lo activadnthe battery the tongues 38 are detached Fro i. the lower section, iii they were soldered to it, and are bent upward into their original position in the plane of the upper section walls. The u per section is then pressed down9 causing t e mlx bobbins to displacd the excitant upward lnto the iaiocgiei cells. Spring contacts el, coni'iecteti to tire.

carbon rods, are provided on tliecylindrical projections 25, and automatically put tiie cells into series connection by contacting with the Zinc cups when tire sections are telescopeoi. Terminal wires i2 and. t3 are connected to biriciing iis of the usual type. The spring contacts may be connected, it preferable, so as to put the battery into paralleior series parailei connection.

lli the modiiication oaf tire e invention shown in Fig. 8, both the eine the carbon electrodes are inaintainec'i out of contact with tbe excitant by being,1 siispeiiried from tlie seal. ri. centainer, comprising telescoping sections iii and e5, has retaining tongues 38 of the type ciescribeci in connection with Figs 5, 6 and 7. shells 46 and carbon roiis 3 with rain bcbbiius 3 are embedded in e seal 'The siielis and rods prei i l i' '48 to` insure a riia connection between the members anni the pitcfi or iiire materiai .forming the seai. Tlieainc sbeils elioiiiri ort distance into the event laterai movee o" any convenient material, such as t -prooted paper: or protected metal or be mere recesses in also extend down a s `pastevcups 49 so as "the iiller 50. A ie'xibie water-proof seai 8 for the form shown iii-Fig. 5.

.l5o simultaneously, by a simple adjust a -c'll or battery parte, in each case causing is provided to prevent evaporation from tlie excitant 6.1 The Celis sbown as 'joined in series by means of connectors 5i', but any 'ic'o'rrnljoie electrical connection desired be made by means of conductors embeficieti' in the seal. Terininai wires 52 enfi 53 lecci. lto thelbinding posts, y

The battery may be activated describeti Air is die placed through peritorations il, when the 'excitant rises between the iio'cbins ancj siiels.

' in. all of tlie forms or" invention, tiie excitant is adequateiy protected against evaporation 'and premature eiectrolytic action is prevented, so that the oeils may be stored 'for long periods Without eietericration. i have described means for activating" a single celhor .a plurality oeils l. f. t C;

the excitant vto have unimpeecl access to the electrodes. @elle activate@ in tliis man-- ner 'givearapici eiectricai response an@ their voltage and amperage is substantiaily equai tery, and means for forcing said activat-` ing material into Operutiye relation with the electrodes by manipulation et' the battery parts.- l

in a, cattery oi orv cells, a plurality of anodes cathode a jacent to but out et Contact with eacli anode, a suppiy of ex- .vi o

nt material, and means directly moveble aiong a rectilinear path to force said excitant into operative relation to the anodes and catiiodes.

3. in a battery of dry cells, an excitant in Contact Wit-li the anode of each cell, a catiiosie in each cell and suspended above said excitant, and means for simuitaneously forcing sairi excitant into operative relation to the catlices of all the cells,

e. i ry Celi comprising a cartridge electrode, a Zinc electroe surrounding the saine and spaced therefrom, activating materiai supported out of Contact with the cartridge electrode in tbe inactive position of the cell, alici a plunger operabie iniiepenciently of the cartridge electrode anti adapted. to be manipelated to force the activatinggl material into operative relation witiiL the eiectrces. I

5. A dry cell comprising a cartricige electrode, a zinc electrode surrounding tlie saine and spaced" tliei beil ciosinej the bottone c.M tbe cell and partly extending therefrom, a suppiy of excitant materiai in the cell, saici removable member being completeiy insertible in the oeil to force the excitant into operative re iation to the electrodes.

ti. it ciry battery comprising a plurality or cartridge electrocies, a piuraiity of eine electrodes respectively surrounding the same and spaceri therefrom, activating material supporteii out of Contact with the cartridge eiectrodes iu tiie inactive position of the battery, and means coriiprisin,q plungers for ture.

ALTON HUNTLEY.

removable memforcing said activating material into opera- 

